I am stuck on plotting a graph of surface potential(shy_s) Vs Gate voltage(vgb). I just have to solve this equation below and find the root for every iterations

```
vgb=vfb+shy_s+gama.*sqrt(shy_s+shy_t.*exp((shy_s-2.*shy_f)/shy_t))
```

where

```
shy_f=0.347; %shy_f=shy_t*ln(Na/ni)
shy_t=0.0259; %Thermal voltage = KT/e ; where k = 1.3806*10^-23 @ 300 K
es=11.7*8.85*10^-12;
Na=10^10; %[unit]=[m^-3)
cox=6.93*10^-12; %[unit]=[F/m^2] and t_ox=550 A
q=1.6*10^-19;
vfb=0;
gama=(sqrt(2*q*es*Na)/cox);
```

Here I have to find the value of `shy_s(surface potential)`

for different values of `vgb(gate voltage)`

.

So I tried different methods to solve it, such as

```
a=zeros(1,100);
b=zeros(1,100);
for vgb=0:0.1:10
shy_s=0;
% Say
p=shy_s;
% And
j=vgb-vfb-((sqrt(2*q*es*10^10))/cox).*sqrt(shy_s+shy_t.*exp((shy_s-2.*shy_f)/shy_t));
D=p-j;
if D>0
for shy_s=0:0.1:30;
D=p-j;
if D<0
a=shy_s;
break
end
end
elseif D<0
for shy_s=0:0.1:30
D=p-j;
if D>0
a=shy_s;
break
end
end
end
b(1,vgb)=a;
end
plot(vgb,b)
```

At this manner the following error shows up:

??? Subscript indices must either be real positive integers or logicals.

Error in ==> shy_s_vs_vgb_latest2 at 78 b(1,vgb)=a;

Again I tried to use rather a simpler technique-

```
vgb=fzero(@(shy_s)vfb+shy_s+gama.*sqrt(shy_s+shy_t.*exp((shy_s-(2.*shy_f))/shy_t)),2)
```

but it says-

Exiting fzero: aborting search for an interval containing a sign change because complex function value encountered during search. (Function value at -0.56 is -0.56+62.1585i.) Check function or try again with a different starting value.

vgb =

NaN

Another relation can be used for the same purpose

```
(vgb-vfb-shy_s)/gama)^2 = shy_s+shy_t.*(exp((shy_s-2*shy_f)/shy_y))+shy_t.*(exp(-shy_s/shy_t)-1)
```